EC:3.6.1.25 - FACTA Search

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Query: EC:3.6.1.25 (triphosphatase)
1,529 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The elongation factor 1- and elongation factor 2-dependent GTPase (guanosine triphosphatase) activities of ribosomes are inhibited by ricin, a toxic protein known to inactivate the 60S ribosomal subunit. It is suggested that also in eukaryotic ribosomes a "GTPase site', located on the larger subunit, is common to the two elongation factors.
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PMID:Relationship between elongation factor I- and elongation factor II- dependent guanosine triphosphatase activities of ribosomes. Inhibition of both activities by ricin. 17 82

Controversy exists as to whether the interaction of a guanosine triphosphatase activating protein (GAP) with Ras proteins functions both to initiate and to terminate Ras-dependent signaling events or only to terminate them. GAP-C, a carboxyl-terminal fragment of GAP that is sufficient to stimulate GTPase activity, inhibited the stimulation of transcription produced by some oncoproteins (v-Src, polyoma middle T, wild-type Ras, and oncogenic Ras) but not that produced by v-Mos. Wild-type GAP did not affect transcription induced by oncogenic Ras but reversed the inhibitory effect of GAP-C on transcription induced by oncogenic Ras. These results indicate that GAP is a negative regulator of wild-type Ras and elicits a downstream signal by interacting with Ras-GTP (guanosine triphosphate).
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PMID:Implication of GAP in Ras-dependent transactivation of a polyoma enhancer sequence. 131 56

This study was designed to investigate the relative ability of a series of cyclic opioid peptides to initiate the first activation steps following their binding of delta-opioid receptors. The extent of stimulation of low Km guanosine-triphosphatase (GTPase activity) and inhibition of hormonally-stimulated cAMP accumulation in the NG108-15 (neuroblastoma-glioma) hybrid cell line were determined and compared for six closely related peptides. In addition, their binding affinity was assessed by competition with 3H-[D-Pen2D-Pen5]-enkephalin (3H-DPDPE) in membranes from these cells. All peptides tested elicited comparable maximal effects for both functional responses. Different potencies in stimulating the low Km GTPase was observed at sub-maximal agonist concentrations, although the shallow dose-response behavior did not allow accurate determination of ED50s. Estimation of ED50s for inhibition of cAMP accumulation could be made by curve fitting and were similar for four of these peptides, while DCDPE and 3R-methylDCDPE, the highest affinity analogs, were considerably more potent. In general, the observed differences in hormonal activity somewhat parallel the rank order of binding affinities, but no strict relationship was found between receptor binding and activation.
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PMID:Assessment of delta-opioid receptor activation by a series of peptides in cultured cells. 132 97

Src homology (SH) regions 2 and 3 are noncatalytic domains that are conserved among a series of cytoplasmic signaling proteins regulated by receptor protein-tyrosine kinases, including phospholipase C-gamma, Ras GTPase (guanosine triphosphatase)-activating protein, and Src-like tyrosine kinases. The SH2 domains of these signaling proteins bind tyrosine phosphorylated polypeptides, implicated in normal signaling and cellular transformation. Tyrosine phosphorylation acts as a switch to induce the binding of SH2 domains, thereby mediating the formation of heteromeric protein complexes at or near the plasma membrane. The formation of these complexes is likely to control the activation of signal transduction pathways by tyrosine kinases. The SH3 domain is a distinct motif that, together with SH2, may modulate interactions with the cytoskeleton and membrane. Some signaling and transforming proteins contain SH2 and SH3 domains unattached to any known catalytic element. These noncatalytic proteins may serve as adaptors to link tyrosine kinases to specific target proteins. These observations suggest that SH2 and SH3 domains participate in the control of intracellular responses to growth factor stimulation.
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PMID:SH2 and SH3 domains: elements that control interactions of cytoplasmic signaling proteins. 170 16

The visual excitation system of the retinal rod outer segments and the hormone-sensitive adenylate cyclase complex are regulated through guanine nucleotide-binding proteins, transducin in the former and inhibitory and stimulatory regulatory components, Gi and Gs, in the latter. These proteins are functionally and structurally similar; all are heterotrimers composed of alpha, beta, and gamma subunits and exhibit guanosine triphosphatase activity stimulated by light-activated rhodopsin or the agonist-receptor complex. Adenylate cyclase can be stimulated by vanadate, which, like NaF, probably acts through Gs. Effects of vanadate on the function of a guanine nucleotide-binding protein were investigated in a reconstituted model system consisting of purified transducin subunits (T alpha, T beta gamma) and rhodopsin in phosphatidylcholine vesicles. Vanadate (decameric) inhibited [3H]GTP binding to T alpha and noncompetitively inhibited GTP hydrolysis in a concentration-dependent manner with maximal inhibition of approximately 90% at 3-5 mM. Vanadate also inhibited release of bound GDP but did not affect the rate of hydrolysis of bound GTP (single turnover rate), indicating that vanadate did not interfere with the intrinsic GTPase activity of T alpha. Binding of T alpha to rhodopsin and the ADP-ribosylation of T alpha by pertussis toxin, both of which are enhanced in the presence of T beta gamma, were inhibited by vanadate. These findings are consistent with the conclusion that vanadate can cause the dissociation of T alpha from T beta gamma, resulting in the inhibition of GDP-GTP exchange and thereby GTP hydrolysis. Adenylate cyclase activation could result from a similar effect of vanadate on Gs.
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PMID:Mechanism of inhibition of transducin guanosine triphosphatase activity by vanadate. 284 71

The cooperativity of the single-stranded DNA dependent nucleoside triphosphatase activity of the recA protein was investigated by examining the influence of a good substrate (ATP) on the hydrolysis of a poor substrate (GTP). At pH 7.5 and 37 degrees C, both ATP and GTP are hydrolyzed with a turnover number of 17.5 min-1. The S0.5 for GTP (750 microM), however, is nearly 20-fold higher than the S0.5 for ATP (45 microM). Low concentrations of ATP activate the GTPase activity of the recA protein by lowering the S0.5 for GTP; in the presence of 50 microM ATP, the S0.5 for GTP is reduced from 750 microM to 200 microM. Concentrations of ATP greater than 50 microM result in competitive inhibition of the ATP-activated GTPase activity. Although GTP is a substrate for hydrolysis, it will not substitute for ATP as a high-energy cofactor in the standard recA protein promoted three-strand exchange reaction. To account for these results, a minimal kinetic model is presented in which ATP binding induces specific conformational changes in the recA protein that do not occur with GTP binding.
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PMID:ATP-stimulated hydrolysis of GTP by RecA protein: kinetic consequences of cooperative RecA protein-ATP interactions. 328 16

Membranes from neuroblastoma X glioma NG108-15 hybrid cells were purified by equilibrium centrifugation on continuous and discontinuous gradients of sorbitol, using homogenates of cells which were pretreated with concanavalin A to increase membrane density. Adenylate cyclase was purified 24-fold in a heavy (H) membrane fraction from discontinuous gradients, opiate-stimulated guanosine-5'-triphosphatase was purified 3-fold, and opiate binding to receptors was increased 10-fold in this fraction. The relative purification of this membrane fraction is also verified by the fact that it contains a single protein (Mr = 58,000) which is covalently labeled by a reactive opiate analog (Klee, W. A., Simonds, W. F., Sweat, F. W., Burke, T. R., Jacobson, A. E., and Rice, K. C. (1982) FEBS Lett. 150, 125). The method of plasma membrane purification after cell treatment with concanavalin A (Lutton, J. K., Frederich, R. C. Jr., and Perkins, J. P. (1979) J. Biol. Chem. 254, 11181) appears generally applicable as established here with 3H-concanavalin A. Between 15 and 20% of the adenylate cyclase in whole-cell homogenates was recovered at low densities in continuous and discontinuous gradients and was only purified 2-fold above activity in the cell homogenate. There are significant differences between ligand binding, adenylate cyclase, and GTPase activities in light (L) and heavy (H) membrane fractions. GTPase activity in the L-membrane fraction was decreased from that in the cell homogenate and was not stimulated by opiates. Adenylate cyclase from L-membranes is only slightly inhibited by opiates in support of other data relating opiate inhibition to stimulation of GTPase (Koski, G., and Klee, W. A. (1981) Proc. Natl. Acad. Sci. 78, 4185).
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PMID:Adenylate cyclases in two populations of membranes purified from neuroblastoma X glioma hybrid (NG 108-15) cells. 408 76

Guanosine triphosphatase activating protein (GAP) is an essential component of Ras signaling pathways. GAP functions in different cell types as a deactivator and a transmitter of cellular Ras signals. A domain (amino acids 275 to 351) encompassing the Src homology region 3 (SH3) of GAP was found to be essential for GAP signaling. A monoclonal antibody was used to block germinal vesicle breakdown (GVBD) induced by the oncogenic protein Ha-ras Lys12 in Xenopus oocytes. The monoclonal antibody, which was found to recognize the peptide containing amino acids 275 to 351 within the amino-terminal domain of GAP, did not modify the stimulation of the Ha-Ras-GTPase by GAP. Injection of peptides corresponding to amino acids 275 to 351 and 317 to 326 blocked GVBD induced by insulin or by Ha-Ras Lys12 but not that induced by progesterone. These findings confirm that GAP is an effector for Ras in Xenopus oocytes and that the SH3 domain is essential for signal transduction.
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PMID:Identification of the SH3 domain of GAP as an essential sequence for Ras-GAP-mediated signaling. 767 7

Guanosine triphosphatase activating protein (GAP) is an important modulator of p21ras (Ras)-dependent signal transduction in mammalian cells and in insulin-induced maturation of Xenopus oocytes. A synthetic octapeptide from the catalytic domain of GAP, residues 899-906 (F899VFLRLIC906), inhibited GAP-stimulated hydrolysis of GTP to GDP by Ras in an in vitro biochemical assay (IC50 = 12 microM). The peptide was assayed for its ability to block insulin- (Ras-dependent) and progesterone- (Ras-independent) induced maturation of stage VI Xenopus laevis oocytes, marked by germinal vesicle breakdown (GVBD). Microinjection of 50 pmol of the peptide inhibited insulin- but not progesterone-induced GVBD by 50%. A 7-residue peptide lacking F899, GAP(900-906)-NH2, failed to inhibit GAP-stimulated GTPase activity and did not block GVBD. Replacement of the cysteine residue at position 906 with methionine resulted in a peptide with prolonged inhibitory activity in the oocyte. Moreover, sequential replacement of specific L-amino acid residues with the corresponding D-amino acids produced a peptide with a two-fold increased half-life after injection into oocytes. None of the peptides tested affected progesterone induced GVBD, suggesting that the modifications did not result in loss of specificity. These studies show that (a) peptides that were able to inhibit GAP-stimulated Ras GTPase activity in vitro were also able to block Ras-dependent GVBD in oocytes, and (b) specific substitutions in these peptides can result in improved stability in oocytes.
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PMID:Ras-dependent maturation of Xenopus oocytes is blocked by modified peptides of GTPase activating protein (GAP). 778 68

The replication of Semliki Forest virus requires four nonstructural proteins (nsP1 to nsP4), all derived from the same polyprotein. One of these, nsP2, is a multifunctional protein needed in RNA replication and in the processing of the nonstructural polyprotein. On the basis of amino acid sequence homologies, nsP2 was predicted to possess nucleoside triphosphatase and RNA helicase activities. Here, we report the engineered expression in Escherichia coli of nsP2 and of an amino-terminal fragment of it by use of the highly efficient T7 expression system. Both polypeptides were produced as fusion proteins with a histidine tag at the amino terminus and purified by immobilized-metal affinity chromatography. The two recombinant proteins exhibited ATPase and GTPase activities, which were further stimulated by the presence of single-stranded RNA. The activities were not found in similarly prepared fractions from uninduced control cells or cells expressing an unrelated polypeptide. Radiolabeled ribonucleoside triphosphates could be cross-linked to both the full-length and the carboxy-terminally truncated nsP2 protein, and both polypeptides had RNA-binding capacity. We also expressed and purified an nsP2 variant which had a single amino acid substitution in the nucleotide-binding motif (Lys-192-->Asn). No nucleoside triphosphatase activity was associated with this mutant protein.
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PMID:ATPase and GTPase activities associated with Semliki Forest virus nonstructural protein nsP2. 805 61

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